Combination of protective coating and temperature monitoring in boilers

Maria Oksa; Sanni Mustala; Stefan Sandlin; Erja Turunen; Tommi Varis; Satu Tuurna

Combination of protective coating and temperature monitoring in boilers

Maria Oksa^*
, Sanni Mustala
, Stefan Sandlin
, Erja Turunen
, Tommi Varis
, Satu Tuurna

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Scientific › peer-review

Abstract

Waste incineration and biomass combustion produce a complex and hard to control combustion process, which also causes detrimental conditions to boiler materials. Boiler tubing, such as superheaters, can experience severe material, wastage due to corrosion and erosion. In this study, a novel approach to both monitor the temperature of a boiler and protect the susceptible boiler construction is introduced. The main innovation is to combine a protective coating and temperature monitoring optical fiber by developing a novel temperature monitoring protective coating. Protective HVOF and arc sprayed coatings have been tested in high temperature corrosion laboratory tests and in real boiler conditions. Analysis of the samples has been performed with SEM/EDS. In this paper, the preliminary results of developing the monitoring coating system are introduced.

Original language	English
Title of host publication	Applied Material Research at VTT
Publisher	VTT
Pages	166-176
Number of pages	11
Edition	244
ISBN (Print)	9513863115, 9789513863111
Publication status	Published - 2006
Externally published	Yes
Publication type	A4 Article in conference proceedings
Event	Applied Material Research at VTT - Espoo, Finland Duration: 8 Jun 2006 → 8 Jun 2006

Conference

Conference	Applied Material Research at VTT
Country/Territory	Finland
City	Espoo
Period	8/06/06 → 8/06/06

ASJC Scopus subject areas

General Engineering

Cite this

@inproceedings{a9c666f9307442a59a7e06adb3e11e82,

title = "Combination of protective coating and temperature monitoring in boilers",

abstract = "Waste incineration and biomass combustion produce a complex and hard to control combustion process, which also causes detrimental conditions to boiler materials. Boiler tubing, such as superheaters, can experience severe material, wastage due to corrosion and erosion. In this study, a novel approach to both monitor the temperature of a boiler and protect the susceptible boiler construction is introduced. The main innovation is to combine a protective coating and temperature monitoring optical fiber by developing a novel temperature monitoring protective coating. Protective HVOF and arc sprayed coatings have been tested in high temperature corrosion laboratory tests and in real boiler conditions. Analysis of the samples has been performed with SEM/EDS. In this paper, the preliminary results of developing the monitoring coating system are introduced.",

author = "Maria Oksa and Sanni Mustala and Stefan Sandlin and Erja Turunen and Tommi Varis and Satu Tuurna",

year = "2006",

language = "English",

isbn = "9513863115",

pages = "166--176",

booktitle = "Applied Material Research at VTT",

publisher = "VTT",

edition = "244",

note = "Applied Material Research at VTT ; Conference date: 08-06-2006 Through 08-06-2006",

}

TY - GEN

T1 - Combination of protective coating and temperature monitoring in boilers

AU - Oksa, Maria

AU - Mustala, Sanni

AU - Sandlin, Stefan

AU - Turunen, Erja

AU - Varis, Tommi

AU - Tuurna, Satu

PY - 2006

Y1 - 2006

N2 - Waste incineration and biomass combustion produce a complex and hard to control combustion process, which also causes detrimental conditions to boiler materials. Boiler tubing, such as superheaters, can experience severe material, wastage due to corrosion and erosion. In this study, a novel approach to both monitor the temperature of a boiler and protect the susceptible boiler construction is introduced. The main innovation is to combine a protective coating and temperature monitoring optical fiber by developing a novel temperature monitoring protective coating. Protective HVOF and arc sprayed coatings have been tested in high temperature corrosion laboratory tests and in real boiler conditions. Analysis of the samples has been performed with SEM/EDS. In this paper, the preliminary results of developing the monitoring coating system are introduced.

AB - Waste incineration and biomass combustion produce a complex and hard to control combustion process, which also causes detrimental conditions to boiler materials. Boiler tubing, such as superheaters, can experience severe material, wastage due to corrosion and erosion. In this study, a novel approach to both monitor the temperature of a boiler and protect the susceptible boiler construction is introduced. The main innovation is to combine a protective coating and temperature monitoring optical fiber by developing a novel temperature monitoring protective coating. Protective HVOF and arc sprayed coatings have been tested in high temperature corrosion laboratory tests and in real boiler conditions. Analysis of the samples has been performed with SEM/EDS. In this paper, the preliminary results of developing the monitoring coating system are introduced.

UR - https://www.scopus.com/pages/publications/41149124065

M3 - Conference contribution

AN - SCOPUS:41149124065

SN - 9513863115

SN - 9789513863111

SP - 166

EP - 176

BT - Applied Material Research at VTT

PB - VTT

T2 - Applied Material Research at VTT

Y2 - 8 June 2006 through 8 June 2006

ER -

Combination of protective coating and temperature monitoring in boilers

Abstract

Conference

ASJC Scopus subject areas

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